非均匀海水中水平电偶极子在空气中产生的电磁场

Yingda Ren; Honglei Wang; Kunde Yang

doi:10.11990/jheu.202007076

非均匀海水中水平电偶极子在空气中产生的电磁场

Translated title of the contribution: Electromagnetic fields in the air produced by a horizontal electric dipole in inhomogeneous seawater

Yingda Ren
, Honglei Wang
, Kunde Yang

Ocean Institute

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

A model of electromagnetic fields in the air produced by a horizontal electric dipole in seawater with variable conductivity is designed to improve the calculation accuracy of electromagnetic fields and the reliability of the electromagnetic wave propagation performance evaluation in layered seawater media. Further, a method for solving the electromagnetic field components using the direct global matrix is proposed. This study evaluates the stability of the direct global matrix and the source of the calculation error with the generalized reflection matrix. The results show that employing the direct global matrix for solving the electromagnetic field components in multi-layered media effectively eliminates the accumulation of errors, layer by layer; thus, improving the stability and accuracy of the electromagnetic field calculations in real marine environments.

Translated title of the contribution	Electromagnetic fields in the air produced by a horizontal electric dipole in inhomogeneous seawater
Original language	Chinese (Traditional)
Pages (from-to)	1243-1248
Number of pages	6
Journal	Harbin Gongcheng Daxue Xuebao/Journal of Harbin Engineering University
Volume	42
Issue number	9
DOIs	https://doi.org/10.11990/jheu.202007076
State	Published - 5 Sep 2021

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This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 14 Life Below Water

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10.11990/jheu.202007076

Cite this

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title = "非均匀海水中水平电偶极子在空气中产生的电磁场",

abstract = "A model of electromagnetic fields in the air produced by a horizontal electric dipole in seawater with variable conductivity is designed to improve the calculation accuracy of electromagnetic fields and the reliability of the electromagnetic wave propagation performance evaluation in layered seawater media. Further, a method for solving the electromagnetic field components using the direct global matrix is proposed. This study evaluates the stability of the direct global matrix and the source of the calculation error with the generalized reflection matrix. The results show that employing the direct global matrix for solving the electromagnetic field components in multi-layered media effectively eliminates the accumulation of errors, layer by layer; thus, improving the stability and accuracy of the electromagnetic field calculations in real marine environments.",

keywords = "Direct global matrix, Electromagnetic fields, Error accumulation, Generalized reflection matrix, Horizontal electric dipole, Inhomogeneity, Layered media, Seawater",

author = "Yingda Ren and Honglei Wang and Kunde Yang",

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doi = "10.11990/jheu.202007076",

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T1 - 非均匀海水中水平电偶极子在空气中产生的电磁场

AU - Ren, Yingda

AU - Wang, Honglei

AU - Yang, Kunde

PY - 2021/9/5

Y1 - 2021/9/5

N2 - A model of electromagnetic fields in the air produced by a horizontal electric dipole in seawater with variable conductivity is designed to improve the calculation accuracy of electromagnetic fields and the reliability of the electromagnetic wave propagation performance evaluation in layered seawater media. Further, a method for solving the electromagnetic field components using the direct global matrix is proposed. This study evaluates the stability of the direct global matrix and the source of the calculation error with the generalized reflection matrix. The results show that employing the direct global matrix for solving the electromagnetic field components in multi-layered media effectively eliminates the accumulation of errors, layer by layer; thus, improving the stability and accuracy of the electromagnetic field calculations in real marine environments.

AB - A model of electromagnetic fields in the air produced by a horizontal electric dipole in seawater with variable conductivity is designed to improve the calculation accuracy of electromagnetic fields and the reliability of the electromagnetic wave propagation performance evaluation in layered seawater media. Further, a method for solving the electromagnetic field components using the direct global matrix is proposed. This study evaluates the stability of the direct global matrix and the source of the calculation error with the generalized reflection matrix. The results show that employing the direct global matrix for solving the electromagnetic field components in multi-layered media effectively eliminates the accumulation of errors, layer by layer; thus, improving the stability and accuracy of the electromagnetic field calculations in real marine environments.

KW - Direct global matrix

KW - Electromagnetic fields

KW - Error accumulation

KW - Generalized reflection matrix

KW - Horizontal electric dipole

KW - Inhomogeneity

KW - Layered media

KW - Seawater

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JF - Harbin Gongcheng Daxue Xuebao/Journal of Harbin Engineering University

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ER -

非均匀海水中水平电偶极子在空气中产生的电磁场

Abstract

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